Genomic Analysis of ' Liberibacter africanus' Strain from Zimbabwe Reveals Unique Virulence and Prophage Characteristics Compared with ' L. asiaticus'.

Citrus Huanglongbing (HLB) is caused by the phloem-limited α-proteobacterium ' Liberibacter spp.', among which ' L. africanus' (CLaf) has posed a significant threat to citrus production in Africa for nearly a century. CLaf is closely related to the globally prevalent ' L. asiaticus' (CLas), whereas little is known about the virulence of CLaf, primarily because of limited genome resources. In this study, we completed the whole-genome assembly and annotation of the CLaf strain Zim (from Zimbabwe). Compared with CLas, a total of 102 CLaf unique genes were identified, including 14 potential Sec-dependent effector (SDE) genes, 29 phage-associated genes, and 59 genes with hypothetical function. Among 14 SDEs, V9J15_03810 was able to induce a significant hypersensitive response in , indicating its potential as a virulence factor for CLaf. Genome analysis showed that the CLaf strain Zim genome harbored a complete prophage region (named P-Zim-1, 42,208 bp). P-Zim-1 retained two immunosuppressive peroxidase genes (V9J15_02125 and V9J15_02130) homologous to CLas prophage SC1/SC2, whereas the lysogen-associated genes encoding integrase (V9J15_01970) and repressor (V9J15_02080) were homologous to the prophage of ' L. solanacearum', the causal agent of potato zebra chip disease. In addition, P-Zim-1 carried a novel CRISPR/Cas system, including a CRISPR array (located within V9J15_02040, ranging from 443,643 to 443,897) and five CRISPR-related proteins (V9J15_02005, V9J15_02010, V9J15_02015, V9J15_02025, and V9J15_02035). This study first characterized the unique genomic feature of CLaf related to virulence and prophage, which will facilitate future research on CLaf biology and African HLB management.